WO2013104555A1

WO2013104555A1 - Illuminating device and manufacturing method thereof

Info

Publication number: WO2013104555A1
Application number: PCT/EP2013/050061
Authority: WO
Inventors: Hui GUI; Xiaoyu Chen; Junhua Zeng; Jin Hu
Original assignee: Osram Gmbh
Priority date: 2012-01-10
Filing date: 2013-01-03
Publication date: 2013-07-18
Also published as: US9488356B2; CN103196042A; US20150003071A1; EP2802812A1; EP2802812B1; CN103196042B

Abstract

The present invention relates to an illuminating device, comprising a circuit board (2) carrying a light-emitting element (1), a driver (4) and a heat sink (3) arranged between the circuit board (2) and the driver (4), characterized in that the heat sink (3) has a non-conductive base (15) and at least one pair of conductive connectors (6) which embedded in the non-conductive base (15), respective connector (6) has a first end (7) extending from one side of the non-conductive base (15) to hold the circuit board (2) and a second end (8) extending from the other side of the non-conductive base (15) to hold the driver (4), wherein the circuit board (2) and the driver (4) are electrically connected by means of the connectors (6). In the illuminating device of the present invention, the circuit board and the driver can be mechanically and electrically connected simultaneously by using the heat sink, without additional connectors; moreover, the illuminating device has a strong universality and a simple structure and is easily installed. In addition, the present invention further provides a method for manufacturing the illuminating device.

Description

Illuminating Device and Manufacturing Method thereof Technical Field

The present invention relates to an illuminating device and a method for manufacturing the illuminating device.

Background Art

At present, illuminating devices are widely used in day life. As the structure and performances of the illuminating device should be optimized and improved persistently, requirements of high standards are put forward on, for instance, the con^¬ necting manner between components in the illuminating device.

Within an illuminating device, a reliable electrical connec- tion between a circuit board and a driver should be assured to allow the illuminating device to normally operate. In the prior art, the circuit board and the driver are usually elec^¬ trically connected via a wire with a soldering method, that is to say, both ends of the wire are soldered on solder joints of the circuit board and the driver, respectively.

Such connecting manner demands a lot of efforts and materials. In addition, during the soldering process, light- emitting devices such as LED might be damaged. Another connecting possibility is that the circuit board and the driver are electrically connected by means of an additional connec^¬ tor, while the drawback lies in that, apart from extra cost of the connector, the connector still needs to be fixed on the circuit board by using, for example, a solder paste.

Besides, mechanical connection between components of the il- luminating device usually needs to be realized by means of additional mechanical connectors such as bolts. But such con^¬ nectors, most of which are made from metal, will easily cause the short circuit of the circuit board, and also increase the manufacturing cost of the illuminating device. Summary of the Invention

In order to solve the above problems, the present invention provides a novel illuminating device. The illuminating device of the present invention can simultaneously realize, by means of a heat sink, the mechanical connection and the electrical connection between the circuit board and the driver, without additional connector, has a strong universality and a simple structure, and is easily installed. In addition, the present invention further provides a method for manufacturing the illuminating device. An illuminating device, comprising a circuit board carrying a light-emitting element, a driver and a heat sink arranged be^¬ tween the circuit board and the driver, characterized in that the heat sink has a non-conductive base and at least one pair of conductive connectors which embedded in the non-conductive base, respective connector has a first end extending from one side of the non-conductive base to hold the circuit board and a second end extending from the other side of the non- conductive base to hold the driver, wherein the circuit board and the driver are electrically connected by means of the connectors.

In the illuminating device of the present invention, at least one pair of conductive connectors, as positive pin and nega^¬ tive pin, are directly embedded in the non-conductive base of the heat sink, and the connector serves double functions of mechanical connection and electrical connection. Such heat sink integrated with the connectors can be fixed together with the circuit board by means of the first ends thereof and fixed together with the driver by means of the second ends thereof; meanwhile, the circuit board and the driver located at both side of the non-conductive base are also electrically connected with each other. In the illuminating device of the present invention, there is no need to provide extra electri^¬ cal connectors or mechanical connectors, thus, the manufac^¬ turing process is simplified, and the number of parts of the illuminating device is also minimized. In one preferred solution of the present invention, the con^¬ nectors are formed in the non-conductive base through an in^¬ sert-molding process. As a result, the connectors can be firmly connected together with the heat sink, in a mode of insertion, to form a multi-functional part in one piece. In one preferred solution of the present invention, respec^¬ tive connector has a tubular body and at least one bending portion as the first end that bends radially outwardly from the tubular body. The heat sink can be formed through injec^¬ tion molding around the tubular bodies of the connectors, and respective first end extending beyond one side of the non- conductive base bends radially outwardly for the purpose of, for instance, forming a turned edge. By means of the bending portion, the circuit board can be fixed on the heat sink in a manner of, for instance, pressing. Of course, the body of re- spective connector also can be designed to have other shapes such as belt shape or strip shape having an elongated extend^¬ ing tendency.

Preferably, the non-conductive base further has protective flanges each formed at a joint between the tubular body and the first end and surrounding the tubular body. The protec^¬ tive flanges are formed on the heat sink and enclose respec^¬ tive tubular bodies in a circumferential direction to prevent the tubular body from directly contacting the circuit board and avoid a short circuit caused thereby.

In one preferred solution of the present invention, the cir^¬ cuit board has via holes corresponding to respective first ends and conduction regions surrounding respective via holes, and the first end passes through the via hole to press against the conduction region and electrically contact the conduction region. The conduction region is adjacent to respective via hole in a radial direction so that the first end passing through the via hole directly presses against the conduction region; meanwhile, the mechanical connection and the electrical connection between the connector and the circuit board are realized.

In one preferred solution of the present invention, the sec- ond end of respective connector is tubular, and the driver comprises accommodating portions for accommodating respective second ends. At the other side of the heat sink away from the circuit board, the connectors are inserted into respective accommodating portions of the driver by means of respective second ends, thus, the connectors also mechanically fix the driver at the other side of the heat sink and meanwhile is electrically connected with the driver.

In one preferred solution of the present invention, the heat sink further comprises a non-conductive circumferential wall which defines a cavity together with the non-conductive base for accommodating the circuit board. By providing the circumferential wall, the circuit board can be protected. Particu^¬ larly, an inner surface of the circumferential wall is de^¬ signed to be a reflective surface. The heat sink configured in such a manner can exist in a form of a reflective cup so that the luminous efficiency of the illuminating device is improved . In one preferred solution of the present invention, a plural^¬ ity of cooling ribs are formed on an outer surface of the circumferential wall. The heat dissipating area of the illu^¬ minating device can be increased through the plurality of cooling ribs, which is favorable for elongate the service lifetime of the illuminating device.

In one preferred solution of the present invention, the con^¬ nectors are made from metal . The connector can be made from, for instance, copper or other materials having a good elec- trical conductivity. Therefore, it can be assured that the circuit board and the driver are reliably electrically con^¬ nected .

In one preferred solution of the present invention, the heat sink is made from plastic. The heat sink can be selected to be made from plastics that have good thermal conductivity, and therefore, it will be assured that a short circuit will not occur between the heat sink and the other electronic de^¬ vices.

The present invention further relates to a method for manu- facturing the illuminating device, comprising steps of: a) providing at least one pair of connectors, injecting a non-conductive material around the connectors in one piece through an insert-injection technology to form a non- conductive base of a heat sink, with a first end of respec- tive connector extending from one side of non-conductive base, and with a second end of respective connector extending from the other side of the non-conductive base; b) providing a circuit board for carrying a light-emitting element, holding the circuit board on the one side of the non-conductive base by means of the first ends, and electri- cally connecting the first ends and the circuit board; and c) providing a driver, fixing the driver on the other side of the non-conductive base by means of the second ends, and electrically connecting the second ends with the driver. The at least one pair of connectors and the heat sink are in^¬ tegrated in one piece through the insert-injection technol^¬ ogy, and the circuit board and the driver can be simply fixed on both sides of the non-conductive base of the heat sink, respectively, by using the heat sink, so as to form a com- plete illuminating device; moreover, the circuit board and the driver can be electrically connected through the connec^¬ tors, wherein the order of step b) and step c) can be ex^¬ changed .

In one preferred solution of the present invention, in step a) , respective connector comprises a tubular body, the first end bending radially outwardly from the tubular body and the second end that is tubular.

In one preferred solution of the present invention, in step b) , the circuit board has via holes corresponding to respec- tive first ends and conduction regions surrounding respective via hole, and the first end passes through the via hole to press against the conduction region and electrically contact the conduction region. As a result, the connector is mechanically and electrically connected to the circuit board through the first ends.

In one preferred solution of the present invention, in step c) , the driver comprises accommodating portions for accommo^¬ dating respective second ends. Therefore, the connected is mechanically and electrically connected to the driver through the second ends. Brief Description of the Drawings

The accompanying drawings constitute a part of the present Description and are used to provide further understanding of the present invention. Such accompanying drawings illustrate the embodiments of the present invention and are used to de^¬ scribe the principles of the present invention together with the Description. In the accompanying drawings the same compo^¬ nents are represented by the same reference numbers. As shown in the drawings : Fig. 1 is a 3D top view of a heat sink of an illuminating device of the present invention;

Fig. 2 is a sectional view of a heat sink of an illuminating device of the present invention;

Fig. 3 is an exploded top view of an illuminating device of the present invention; and

Fig. 4 is an exploded bottom view of an illuminating device of the present invention.

Detailed Description of the Embodiments

Fig. 1 shows a heat sink of an illuminating device of the present invention. As can be seen from Fig. 1, at least one pair of connectors 6 (there is one pair of connectors 6 in the present embodiment) , as positive pin and negative pin, respectively, are molded in a non-conductive base 15 of a heat sink 3 made from plastic. This can be realized through, for instance, an insert-injection technology. As a result, the connector 6 and the heat sink 3 are formed as a whole, and the connectors 6 are firmly held in the non-conductive base 15. The heat sink 3 formed in such a manner has the ₀

o function of a heat sink and also can be connected together with other component of the illuminating device by means of the connectors 6, without additional connecting means.

It can be further seen from Fig. 1 that the connectors 6, provided in pairs, are located advantageously in a central region of the non-conductive base 15. In conjunction with the sectional view of the heat sink 3 shown in Fig. 2, it can be seen that the connectors 6 made from a conductive metal such as copper are formed in the non-conductive base 15 made from a thermal-conducting material, wherein respective connector 6 has a tubular body 9, a first end 7 located at one side of the non-conductive base 15 and a second end 8 located at the other side of the non-conductive base 15. For the sake of fixing and connecting effects, respective first end 7 is de- signed to bend radially outwardly from the tubular body 9 in the present invention. Besides, in order to prevent a short circuit caused when the tubular body 9 directly contacts an electronic device, a protective flange 5 is formed advanta^¬ geously at a joint between the tubular body 9 and the first end 7. The protective flange 5 projects upwardly from an as^¬ sembling surface A of the non-conductive base 15 and sur^¬ rounds the tubular body 9. The first end 7 covers part of the protective flange 5 from one side in a form of, for example, turned edge. A suitable distance is kept between the first end 7 and the assembling surface A, so that the first end 7 can press against the device to be fixed when a device to be fixed is placed on the assembling surface A.

In addition, the heat sink 3 further has a non-conductive circumferential wall 13 that defines an open cavity R to- gether with the non-conductive base 15. For obtaining better heat dissipating effects, a plurality of cooling ribs 14 are formed on an outer surface of the circumferential wall 13. Fig. 3 is an exploded top view of an illuminating device of the present invention. Compared with Fig. 1, the difference of Fig. 3 lies in that the open cavity R of the heat sink 3 accommodates a circuit board 2 carrying a light-emitting ele- ment 1. The circuit board 2 has first via holes 10 corre^¬ sponding to the first ends 7 and conduction regions 11 sur^¬ rounding respective via holes 10. The first end 7 passes through the via hole 10 to press the circuit board 2 against the assembling surface A, and the first end 7 electrically contacts the conduction region 11, wherein the protective flange 5 is located between the tubular body 9 and an edge of the via hole 10, as a result, the tubular body 9 and the cir^¬ cuit board 2 are separated. In order to not affect the lumi^¬ nous efficiency of the light-emitting element 1 accommodated in the cavity R, an inner surface of the circumferential wall 13 can be designed to be a reflective surface. That is to say, the heat sink 3 preferably can be used as a reflective cup that has the heat dissipating effect in the present em^¬ bodiment . Fig. 4 is an exploded bottom view of an illuminating device of the present invention. The second end 8 of respective con^¬ nector 6 is located at the other side of the non-conductive base 15, i.e., one side away from the assembling surface A. Correspondingly, the driver 4 at the same side comprises an accommodating portion 12 for accommodating the second end 8. The second end 8 can be inserted into or held in the accommo^¬ dating portion 12; therefore, the driver 4 is fixed on the other side of the non-conductive base 15. As respective con^¬ nector 6 has the first end 7 electrically connected to the circuit board 2 and the second end 8 electrically connected to the driver 4, the circuit board 2 and the driver 4, lo^¬ cated at both sides of the non-conductive base 15, respec^¬ tively, can be simply and reliably electrically connected by using the connectors 6 embedded in the non-conductive base 15.

The above is merely preferred embodiments of the present in^¬ vention but not to limit the present invention. For the per- son skilled in the art, the present invention may have vari^¬ ous alterations and changes. Any alterations, equivalent sub^¬ stitutions, improvements, within the spirit and principle of the present invention, should be covered in the protection scope of the present invention.

List of reference signs

1 light-emitting element

2 circuit board

3 heat sink

4 driver

5 protective flange

6 connector

7 first end

8 second end

9 tubular body

10 via hole

11 conduction region

12 accommodating portion

13 circumferential wall

14 cooling rib

15 non-conductive base A assembling surface R cavity

Claims

1. An illuminating device, comprising a circuit board (2) carrying a light-emitting element (1), a driver (4) and a heat sink (3) arranged between the circuit board (2) and the driver (4), characterized in that the heat sink (3) has a non-conductive base (15) and at least one pair of conductive connectors (6) which embedded in the non-conductive base (15), respective connector (6) has a first end (7) extending from one side of the non-conductive base (15) to hold the circuit board (2) and a second end (8) extending from the other side of the non-conductive base (15) to hold the driver (4), wherein the circuit board (2) and the driver (4) are electrically connected by means of the connectors (6) .

2. The illuminating device according to Claim 1, characterized in that the connectors (6) are formed in the non- conductive base (15) through an insert-molding process.

3. The illuminating device according to Claim 2, characterized in that respective connector (6) has a tubular body (9) and at least one bending portion as the first end (7) that bends radially outwardly from the tubular body (9) .

4. The illuminating device according to Claim 3, characterized in that the non-conductive base (15) further has protec^¬ tive flanges (5) each formed at a joint between the tubular body (9) and the first end (7) and surrounding the tubular body (9) .

5. The illuminating device according to Claim 3, characterized in that the circuit board (2) has via holes (10) and conduction regions (11) surrounding respective via holes (10), and the first end (7) passes through the via hole (10) to press against the conduction region (11) and electrically contact the conduction region (11) .

6. The illuminating device according to Claim 3, characterized in that the second end (8) of respective connector (6) is tubular, and the driver (4) comprises an accommodating portion (12) for accommodating the second end (8) .

7. The illuminating device according to any one of Claims 1-6, characterized in that the heat sink (3) further com^¬ prises a non-conductive circumferential wall (13) which de^¬ fines a cavity (R) together with the non-conductive base (15) for accommodating the circuit board (2) .

8. The illuminating device according to Claim 7, characterized in that an inner surface of the circumferential wall (13) is designed to be a reflective surface.

9. The illuminating device according to Claim 7, character- ized in that a plurality of cooling ribs (14) are formed on an outer surface of the circumferential wall (13) .

10. The illuminating device according to any one of Claims 1-6, characterized in that the connectors (6) are made from metal .

11. The illuminating device according to any one of Claims 1-6, characterized in that the heat sink (3) is made from plastic .

12. A method for manufacturing the illuminating device according to any one of Claims 1-11, characterized by compris- ing steps of: a) providing at least one pair of connectors (6), injecting a non-conductive material around the connectors (6) in one piece through an insert-injection technology to form a non- conductive base (15) of a heat sink (3), with a first end (7) of respective connector (6) extending from one side of non- conductive base (15), and with a second end (8) of respective connector (6) extending from the other side of the non- conductive base (15); b) providing a circuit board (2) for carrying a light- emitting element (1), holding the circuit board (2) on the one side of the non-conductive base (15) with the first ends (7), and electrically connecting the first ends (7) and the circuit board (2); and c) providing a driver (4), fixing the driver (4) on the other side of the non-conductive base (15) with the second ends

(8) , and electrically connecting the second ends (8) with the driver (4) .

13. The method according to Claim 12, characterized in that in step a), respective connector (6) comprises a tubular body

(9) , the first end (7) bending radially outwardly from the tubular body (9) and the second end (8) that is tubular.

14. The method according to Claim 13, characterized in that in step b) , the circuit board (2) has via holes (10) corre^¬ sponding to respective first ends (7) and conduction regions (11) surrounding respective via holes (10), and the first end (7) passes through the via hole (10) to press against the conduction region (11) and electrically contact the conduc^¬ tion region (11) .

15. The method according to Claim 13, characterized in that in step c) , the driver (4) comprises accommodating portions (12) for accommodating respective second ends (8) .